Secondary structure and mutational analysis of the Mason-Pfizer monkey virus RNA constitutive transport element

Abstract

The Mason-Pfizer monkey virus (MPMV) genome contains a cis-acting element that serves to facilitate nucleocytoplasmic export of intron-containing RNA. This element, known as the constitutive transport element (CTE), has been mapped to a 154-nt region close to the 3' end of the MPMV genome. The CTE contains a degenerate direct repeat of approximately 70 nt. We have probed the secondary structure of the CTE using double-strand- and single-strand-specific ribonucleases and chemical modification agents. A mutational analysis was also performed to confirm critical features of the CTE structure, as well as to identify regions that contain sequence-specific information required for function. Our results indicate that the CTE forms a long stem structure that contains a 9-nt terminal hairpin loop as well as two identical 16-nt inner loops. The inner loop sequences are rotated 180 degrees relative to each other within the structure. The mutational analysis shows that primary sequences in the loop regions are important for function, suggesting that they may contain binding sites for cellular proteins involved in RNA export. Interestingly, sequences with significant homology to the inner loop regions are found in the genomes of spumaviruses and mouse intracisternal A particles.